Latest Articles for Electronics

RIS technology simplifies signal management, enhancing wireless communication quality.

Exploring how edge imperfections and magnetic fields affect topological insulators.

A study of how tiny electron clusters interact under various conditions.

Examining the complexities of the anomalous Hall effect in uneven materials.

Examining how silicon dangling bonds influence reactions with phosphorus bromide and phosphine.

A look into quantum oscillations and their impact on metal properties.

Examining how heavy impurities influence light particles in a quantum state.

Exploring how the Hartree-Fock method reveals electron interactions in materials.

ZGNR-Gs offer exciting possibilities for electronics and sensing technologies.

This study examines how impurities affect electron behavior in graphene with magnetic fields.

Learn about unique magnetic structures and their potential in electronics.

Exploring the unique properties of Fe GeTe and its technological implications.

Exploring the potential and applications of spin-polarized antiferromagnetic metals.

New design enhances TWPA performance using Josephson Junctions for better signal amplification.

New nanorobotic actuators leverage 2D materials for precise movement and functions.

Exploring the potential of memristors in chaotic behavior for advanced applications.

This study examines heat transfer between materials through phonons and their interactions.

Research on InAs/GaSb nanowires reveals new possibilities in electronics.

Investigating the unique properties and applications of gapped graphene in technology.

A look into the electrical behavior of layered conductors under various fields.

Research reveals varying magnetic behaviors in monolayer CrTe and Cr Te.

Research reveals how carbon nanotubes can create stable self-locking structures.

Recent study reveals important properties of doped graphene leads for future electronics.

A novel imaging technique enhances the study of magnetic materials at the atomic level.

Research on higher-order Dirac and Weyl semimetals reveals new properties.

Target skyrmions hold potential for advancing electronic data storage solutions.

Research explores europium-based compounds for potential technologies in electronics and quantum computing.

Study reveals how randomness affects magnetoresistance in graphene under magnetic fields.

Skyrmions could transform electronic data storage with their unique properties.

These unique materials hold significant potential for future technologies.

Research reveals unique properties of disordered hyperuniform systems in electron liquids.

Exploring silver nanowires and their potential in electronics and computing.

Research reveals how temperature and size affect spin dynamics in nanocrystals.

Exploring the potential of altermagnetic superconductors in future technologies.

An overview of APM's advancements, challenges, and prospects across various fields.

Research reveals how magnetism influences weak topological insulators and their properties.

Researchers are creating new systems using skyrmions for energy-efficient electronics.

Discover unique properties of topological materials and their potential technological impacts.

A look into the role of quantum dots in next-gen computing.

Study reveals how iron nanocluster size impacts melting points and behavior.